WO2016030506A1

WO2016030506A1 - Electrolyte for polishing stainless steels, containing a pyridinecarboxylic acid

Info

Publication number: WO2016030506A1
Application number: PCT/EP2015/069744
Authority: WO
Inventors: Siegfried Piesslinger-Schweiger; Olaf Boehme
Original assignee: Poligrat Gmbh
Priority date: 2014-08-29
Filing date: 2015-08-28
Publication date: 2016-03-03
Also published as: PL3186417T3; EP3186417A1; EP3186417B1; HUE040386T2

Abstract

The invention relates to an electrolyte that is suitable for electropolishing stainless steels. In particular, the invention relates to the use of certain additives to said electrolyte in order to decrease the processing time of materials until a certain polishing quality is achieved and/or to reduce the minimum current density for achieving a polishing effect. The electrolyte contains a pyridinecarboxylic acid.

Description

An electrolyte for polishing stainless steels containing a pyridinecarboxylic acid

The present invention relates to an electrolyte suitable for electropolishing stainless steels. In particular, the invention relates to the use of certain additives to these electrolytes in order to reduce the processing time of materials until a certain polishing quality is achieved and / or to reduce the minimum current density in order to obtain a polishing effect.

State of the art

Electropolishing is a widely used technique in the art for surface treatment of stainless steels. This is done not only to give the surfaces gloss and smoothness for decorative reasons, but predominantly to improve technical-functional properties of the surfaces. These properties include corrosion resistance, cleanability, metallic cleanliness, biocompatibility, resistance to fatigue cracking, reflection and absorption, among others.

Stainless steels are increasingly being used in a wide variety of technical areas, where not only the surface properties but also strength, toughness, corrosion resistance and last but not least the price are of importance. In order to meet these demands, the industry is rapidly developing new ones

Stainless steel grades, which are very different in alloy and microstructure. Currently about 200 different material qualities are offered. In terms of microstructure, these include austenite, super austenite, duplex, lean duplex, ferrite and martensite. The range of alloys is widely spread.

As a rule, electropolishing is also required as a surface treatment for these materials.

Prior art stainless steel electropolishing processes are based on mixtures of phosphoric acid in the concentration range of 50% to 80% and sulfuric acid in the concentration range of 50% to 20%. Usual is the addition of

Brighteners to support the polishing effect. Modern electrolyte ^ after the State of the art contain a combination of amines such. B.Tributylamin or dimethylamine and phosphonic acids according to EP 0 249 650 Bl.

Essential criteria for the selection of electrolytes in industrial applications are suitability for different grades of stainless steel, required current density and voltage to achieve the desired polishing effect, the limit of metal uptake up to the still a polishing effect.

None of the currently available electrolytes covers the entire width of the stainless steel grades in terms of alloy and microstructure. In the presence of different qualities usually two or more electrolytes are required. Difficulties occur especially when several stainless steel grades are processed within a component.

From US 3,366,558 A an electrolyte composition is known that is very similar to the electrolyte described herein. However, the composition described in this document is not polishing in the context of the present invention, but rather a dull lackluster surface is to be obtained.

In addition, this electrolyte contains significant amounts of water (regularly up to 50 wt .-% water). A polishing effect in the context of the present invention can not be achieved with such a bath.

In addition, this electrolyte uses certain aminoalkanoic acids, in particular glycine, beta-alanine or aminoproprionate, which can not be understood as amines or alkanolamines in the sense of the present invention.

Subject of the invention

The invention relates to an electrolyte which is equally suitable for electropolishing all qualities of stainless steel with good results, preferably within a shorter time and with lower consumption of energy and chemicals. Another object is that the electrolyte of the invention contains no additional hazardous substances and is suitable to be used in existing electropolishing. Surprisingly, it has been found that addition of pyridinecarboxylic acids, such as picolinic acid, isonicotinic acid, quinolinic acid and, in particular, nicotinic acid, has the desired effect. Nicotinic acid is known as vitamin D3 and as an additive to food and feed. In this respect, there are no safety concerns against the use of nicotinic acid.

Nicotinic acid is compatible with all electrolytes for electropolishing stainless steels based on mixtures of phosphoric acid and sulfuric acid. These electrolytes may also contain additions of amines or phosphonic acids.

Surprisingly, it has been shown that after the addition of 0.1% to 5.0%, preferably from 0.8% to 1.5%, to electrolytes from mixtures of phosphoric acid and sulfuric acid with additions of amines, these electrolytes are suitable for all qualities of stainless steels in good to very good quality to electropolish.

The electrolytes show a significantly improved leveling behavior after addition, so that the processing time to achieve a defined quality is usually 40% to 70% shorter depending on the starting quality of the electrolytes. At the same time, the minimum current density to achieve a polishing effect drops by 40% to 60% depending on the material and microstructure.

Additions of nicotinic acid improve the metal uptake capacity by 20% to 40%. As a result, electrolytes whose limit in the metal content at 5 wt.% Was used to about 7 wt.%.

The invention thus an electrolyte for polishing stainless steels, based on a phosphoric acid / sulfuric acid mixture containing 50-80 wt .-% phosphoric acid,

20-50% by weight of sulfuric acid,

0.1-5.0% by weight of pyridinecarboxylic acid,

0.2-1.0% by weight of amines,

(Rest: water).

Another object of the invention is an electrolyte for polishing stainless steels based on a phosphoric acid / sulfuric acid mixture containing an electrolyte for polishing stainless steels based on a phosphoric acid / sulfuric acid mixture containing 50-80% by weight of phosphoric acid,

20-50% by weight of sulfuric acid,

0.1-5.0% by weight of pyridinecarboxylic acid,

0.2-1.0% by weight of alkanolamines, excluding an electrolyte, which consists of:

56.0% by weight of phosphoric acid (85%),

40.0% by weight of sulfuric acid (96%),

1.5% by weight of nicotinic acid,

0.5% by weight of diisopropanolamine, and

2% by weight of water.

Such an electrolyte is mentioned in EP 0 832 315 A1 as part of a process for demetallizing high-acid baths using this process in the electropolishing of stainless steel surfaces. However, the specified electrolyte composition was merely an experimental composition (electrolyte 3). Special properties or effects were not observed with this electrolyte.

An inventive electrolyte regularly consists of a phosphoric acid / sulfuric acid mixture, wherein - as customary in the art - the phosphoric acid in a concentration range of 50 to 80 wt .-% and the sulfuric acid in a concentration range from 50 to 20 wt .-% becomes.

For the purposes of the present invention, pyridinecarboxylic acid is taken to mean a heteroaromatic compound which consists of a pyridine ring which may be substituted by at least one but also by two carboxy groups. The preferred pyridine carboxylic acid is nicotinic acid.

The pyridinecarboxylic acid is used in an amount of 0.1 to 5.0 wt .-%, preferably 0.8 to 1.5 wt .-%.

The electrolyte according to the invention may additionally contain an amine or else combinations of amines (inter alia tributylamine or dimethylamine). However, the amine may also be an alkanolamine, such as a dialkanolamine (eg, diethanolamine and diisopropanolamine and the like). As usual in the prior art, these amines or alkanolamines are used in an amount of 0.2 to 1.0 wt .-%. The weight ratio of pyridinecarboxylic acid to amine or alkanolamine in the electrolytes according to the invention is regularly 4: 1 to 1: 1. Preferably, the amine / alkanolamine is a Ci-C ₄ di- or trialkylamine or a Ci-C ₄ di- or Trialkanola- min.

Another object of the invention is the use of an addition of the previously discussed pyridinecarboxylic acids in an electrolyte for electropolishing stainless steels to shorten the processing time during electropolishing and / or to reduce the minimum current density during electropolishing. Electropolishing in the sense of the present invention means that the rough values of the treated surface are improved by the electropolishing. In terms of roughness values, this means that the average roughness Ra regularly is less than 0.5 μm and the roughness depth Rz is less than 2 μm. It was observed that, according to the method of the invention, starting from a mean roughness value of about 1.0 μm, a mean roughness Ra of less than 0.5 μm was obtained by the method according to the invention. A parameter for the method according to the invention is thus a polishing effect in which the average roughness value is lowered by at least 0.5 μm.

Example 1:

An automatic electropolishing system for processing sheet metal parts was operated with an electrolyte which consisted of equal parts of phosphoric acid and sulfuric acid with additions of amines. The plant operated in two-shift operation with polishing times of 15 to 20 minutes, depending on the geometry of the parts and current densities of 15 A / dm ² . After addition of 1.0% by weight of nicotinic acid, the polishing time for the sheet metal parts used dropped to 8 minutes at 8 A / dm ² current density. The parts had a much higher gloss level and were uniformly polished over the entire surface.

In the current production it could be determined that the power of the electropolishing plant could be increased by 100% without substantially increasing the consumption of chemicals and energy. The savings in working time, energy and chemicals mean that today twice the performance is achieved without incurring higher costs compared to the previous state.

Example 2:

Hardened martensitic steel medical parts (X7Crl4) were previously treated in an electrolyte of 60% phosphoric acid, 30% sulfuric acid and 10% Chromic acid electropolished at current densities of 30 A / dm ² electropolished. An equivalent result could be found in an electrolyte with 50% phosphoric acid, 50%

Sulfuric acid and additions of amines and 1% nicotinic acid within the same processing time at a current density of 15A / dm ² can be achieved. The same electrolyte without nicotinic acid caused an etching attack on the metal and destroyed the part.

Example 3:

A sheet of material 1.4462 with duplex structure in the size DIN A4 and 2.0 mm thickness, the surface ground with grain 180, had a roughness value of Ra 1.0 μητι in the initial state. The sheet was electropolished in the electrolyte according to the invention with a current density of 8 A / dm ² and a polishing time of 12 minutes. Subsequently, the surface was rinsed with water and dried in air. The electropolished surface was uniformly glossy and had a roughness value of Ra 0.4μηη.

Claims

claims

1. electrolyte for polishing stainless steels based on a phosphoric acid / sulfuric acid mixture containing

50-80% by weight of phosphoric acid,

20-50% by weight of sulfuric acid,

0.1-5.0% by weight of pyridinecarboxylic acid,

0.2-1.0% by weight of amines.

2. containing electrolyte for polishing stainless steels based on a phosphoric acid / sulfuric acid mixture

50-80% by weight of phosphoric acid,

20-50% by weight of sulfuric acid,

0.1-5.0% by weight of pyridinecarboxylic acid,

0.2-1.0% by weight of alkanolamines,

excluding an electrolyte, which consists of:

56.0% by weight of phosphoric acid (85%),

40.0% by weight of sulfuric acid (96%),

1.5% by weight of nicotinic acid,

0.5% by weight of diisopropanolamine, and

2% by weight of water.

3. electrolyte according to claim 1 or 2,

containing 0.8 to 1.5 wt .-% pyridinecarboxylic acid.

4. Electrolyte according to one of the preceding claims,

wherein the pyridinecarboxylic acid is nicotinic acid.

5. Electrolyte according to one of the preceding claims,

wherein the weight ratio of pyridinecarboxylic acid to amine or alkanolamine is 4: 1 to 1: 1.

6. Electrolyte according to one of the preceding claims,

wherein the amine is a Ci-C ₄ di- or trialkylamine.

7. Use of an addition of pyridinecarboxylic acid in an electrolyte for electropolishing stainless steels to shorten the processing time during electropolishing.

8. Use of an addition of pyridinecarboxylic acid in an electrolyte for electropolishing stainless steels to reduce the minimum current density during electropolishing.

9. Use according to claim 7 or 8,

wherein the electrolyte corresponds to any one of claims 1 to 6.